Nuclear Fusion (Jan 2024)

Reconstruction and interpretation of ionization asymmetry in magnetic confinement via synthetic diagnostics

  • G.J. Wilkie,
  • F. Laggner,
  • R. Hager,
  • A. Rosenthal,
  • S.-H. Ku,
  • R.M. Churchill,
  • L. Horvath,
  • C.S. Chang,
  • A. Bortolon

DOI
https://doi.org/10.1088/1741-4326/ad556b
Journal volume & issue
Vol. 64, no. 8
p. 086028

Abstract

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Strong poloidal refueling asymmetry in the DIII-D tokamak is inferred from line radiation measurements. Synthetic diagnostics in neutral transport modeling coupled to gyrokinetic simulations illuminate implications for the plasma flow profile in the scrape-off layer of single-null beam-driven discharges. Recycling occurs primarily either on the inner or outer divertor legs, depending on the toroidal magnetic field direction. By reversing the toroidal magnetic field, the observed line radiation asymmetry is nearly eliminated or reversed. It is determined that, while relatively simple physics can describe the observed ionization asymmetry, predicting the overall brightness of the hydrogenic Lyman- α signal requires detailed simulation of the plasma and resulting turbulence. To this end, kinetic plasma simulations fully coupled to comprehensive neutral transport calculations—a novel capability—provide first-principles reproduction of Lyman- α observations on DIII-D.

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